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Items: 1 to 20 of 100

1.

Design of improved prototype of two-in-one polarization-interlaced stereoscopic projection display.

Chen E, Zhao Y, Lin S, Cai J, Xu S, Ye Y, Yan QF, Guo T.

Opt Express. 2019 Feb 18;27(4):4060-4076. doi: 10.1364/OE.27.004060.

PMID:
30876028
2.
3.

A novel stereoscopic projection display system for CT images of fractures.

Liu X, Jiang H, Lang Y, Wang H, Sun N.

Exp Ther Med. 2013 Jun;5(6):1677-1682. Epub 2013 Apr 3.

4.

Integral freeform illumination lens design of LED based pico-projector.

Zhao S, Wang K, Chen F, Qin Z, Liu S.

Appl Opt. 2013 May 1;52(13):2985-93. doi: 10.1364/AO.52.002985.

PMID:
23669764
5.

Freeform illumination design: a nonlinear boundary problem for the elliptic Monge-Ampére equation.

Wu R, Xu L, Liu P, Zhang Y, Zheng Z, Li H, Liu X.

Opt Lett. 2013 Jan 15;38(2):229-31. doi: 10.1364/OL.38.000229.

PMID:
23454971
6.

Influence of the characteristics of a light source and target on the Monge-Ampére equation method in freeform optics design.

Wu R, Benítez P, Zhang Y, Miñano JC.

Opt Lett. 2014 Feb 1;39(3):634-7. doi: 10.1364/OL.39.000634.

PMID:
24487884
7.
8.

Double freeform illumination design for prescribed wavefronts and irradiances.

Bösel C, Gross H.

J Opt Soc Am A Opt Image Sci Vis. 2018 Feb 1;35(2):236-243. doi: 10.1364/JOSAA.35.000236.

PMID:
29400890
9.

Freeform surface off-axis illumination design with the Monge-Ampère equation method in optical lithography.

Zhang Y, Wu R, Zheng Z.

Appl Opt. 2014 Nov 1;53(31):7296-303. doi: 10.1364/AO.53.007296.

PMID:
25402891
10.

Initial design with L(2) Monge-Kantorovich theory for the Monge-Ampère equation method in freeform surface illumination design.

Wu R, Zhang Y, Sulman MM, Zheng Z, Benítez P, Miñano JC.

Opt Express. 2014 Jun 30;22(13):16161-77. doi: 10.1364/OE.22.016161.

PMID:
24977868
11.

High-resolution optical see-through multi-focal-plane head-mounted display using freeform optics.

Hu X, Hua H.

Opt Express. 2014 Jun 2;22(11):13896-903. doi: 10.1364/OE.22.013896.

PMID:
24921581
12.

Optical design of an in vivo laparoscopic lighting system.

Liu X, Abdolmalaki RY, Mancini GJ, Tan J.

J Biomed Opt. 2017 Dec;22(12):1-15. doi: 10.1117/1.JBO.22.12.125003.

PMID:
29222854
13.

Compact Holographic Projection Display Using Liquid-Crystal-on-Silicon Spatial Light Modulator.

Hsu WF, Weng MH.

Materials (Basel). 2016 Sep 9;9(9). pii: E768. doi: 10.3390/ma9090768.

14.

High-performance laser projection display illumination system based on a diffractive optical element.

Liang C, Zhang W, Rui D, Sui Y, Yang H.

Appl Opt. 2017 Apr 1;56(10):2810-2815. doi: 10.1364/AO.56.002810.

PMID:
28375246
15.

Viewing zone duplication of multi-projection 3D display system using uniaxial crystal.

Lee CK, Park SG, Moon S, Lee B.

Opt Express. 2016 Apr 18;24(8):8458-70. doi: 10.1364/OE.24.008458.

PMID:
27137284
16.

Formulating the design of two freeform lens surfaces for point-like light sources.

Wu R, Chang S, Zheng Z, Zhao L, Liu X.

Opt Lett. 2018 Apr 1;43(7):1619-1622. doi: 10.1364/OL.43.001619.

PMID:
29601045
17.

Matched-filtering generalized phase contrast using LCoS pico-projectors for beam-forming.

Bañas A, Palima D, Glückstad J.

Opt Express. 2012 Apr 23;20(9):9705-12. doi: 10.1364/OE.20.009705.

PMID:
22535062
18.

Multifield direct design method for ultrashort throw ratio projection optics with two tailored mirrors.

Nie Y, Mohedano R, Benítez P, Chaves J, Miñano JC, Thienpont H, Duerr F.

Appl Opt. 2016 May 10;55(14):3794-800. doi: 10.1364/AO.55.003794.

PMID:
27168295
19.

Design and fabrication of a freeform prism array for 3D microscopy.

Li L, Yi AY.

J Opt Soc Am A Opt Image Sci Vis. 2010 Dec 1;27(12):2613-20. doi: 10.1364/JOSAA.27.002613.

PMID:
21119746
20.

Operational modes of a ferroelectric LCoS modulator for displaying binary polarization, amplitude, and phase diffraction gratings.

Martínez-García A, Moreno I, Sánchez-López MM, García-Martínez P.

Appl Opt. 2009 May 20;48(15):2903-14.

PMID:
19458742

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